Forum for Science, Industry and Business

Anna's hummingbird chirps with its tail during display dives

31.01.2008

Dive chirp, once thought vocal, is new type of nonvocal 'sonation'

The beeps, chirps and whistles made by some hummingbirds and thought to be vocal are actually created by the birds' tail feathers, according to a study by two students at the University of California, Berkeley.

The students used a high-speed camera to record the dive-bomber display of the Anna's hummingbird (Calypte anna), the West Coast's most common hummer now in the heat of mating season. The video established that the chirp a male makes at the nadir of his dive coincides with a 60 millisecond spreading of his tail feathers - faster than the blink of an eye.

Wind tunnel tests confirmed that the outer tail feathers vibrate like a reed in a clarinet. The bird's split-second tail spread at dive speed thus produces a loud, brief burst that sounds like a chirp or beep.

"This is a new mechanism for sound production in birds," said lead author Christopher J. Clark, a UC Berkeley graduate student in the Department of Integrative Biology. "The Anna's hummingbird is the only hummingbird for which we know all the details, but there are a number of other species with similarly shaped tail feathers that may use their tail morphology in producing sounds."

The most likely birds to make tail-feather chirps are the Anna's relatives, the "bee" hummingbirds, which are the tiniest hummers in the world. They include the ruby-throated and black-chinned hummingbirds that migrate between the eastern United States and Central America, the Allen's and Costa's hummingbirds that, like the Anna's, reside year-round in the western U.S., the widespread Rufous hummingbird that migrates between the United States and Central America, the tropical woodstar hummingbirds and the bee-sized bee hummingbird of Cuba, the world's smallest.

"Most have funny tail feathers with tapered or narrow tips, all have mating dives, and all make a different sound," Clark said. "It's possible that sexual preference by females has caused the shape of the tail feathers, and thus the sound, to diverge, thereby driving the evolution of new species."

"This phenomenon nicely illustrates the strength of the evolutionary process, and sexual selection, in particular, to derive novel functions from pre-existing structures," noted Robert Dudley, Clark's advisor and a UC Berkeley professor of integrative biology.

Clark and recent UC Berkeley graduate Teresa J. Feo, both with UC Berkeley's Museum of Vertebrate Zoology, report their findings in this week's online version of the journal Proceedings of the Royal Society B.

The tail-feather beep of the Anna's hummingbird is similar to the whistling feathers of ducks and other birds, including the mourning dove, the whistling swan and nighthawks. Those sounds, however, seem to be incidental to wing flapping, the researchers said.

The tail-feather beep of the Anna's hummingbird, on the other hand, is an important part of the dive display that seduces females and also serves to drive away rivals or other threatening animals.

Nevertheless, Clark said, the reed-like mode of sound production may explain other bird feather "sonations." For example, while researchers have found tail feathers to be the source of winnowing sounds made by snipe, an elusive member of the sandpiper family, the mechanism is unknown.

Clark emphasized that the tail-feather sonation is not a whistle, as some have described the chirp. A whistling sound is produced as air moves through a constriction, as in a tea kettle, or over a rigid edge - a classic pennywhistle. The dive chirp is produced by the vibrating vane of a feather.

The display of the male Anna's hummingbird, a green-backed hummingbird with green head and red throat and weighing less than a nickel, is one of the most dramatic of the hummingbirds. During the breeding season, which lasts from November through May, males ascend rapidly to a height of 100 feet or more, then execute a looping dive at speeds of over 23 meters per second (50 miles per hour), Clark and Feo calculated from their video. When they reach the bottom of their dive and round upward near a perching female or intruder, the birds produce a loud chirp.

Ornithologists have debated whether this sound is produced vocally or by the tail, and in fact, one of the earliest reports suggested a tail-feather source. The most recent paper on the subject, a 1979 article by the late songbird expert Luis Baptista of the California Academy of Sciences, argued that the frequency of the chirp is similar to the hummingbird's vocalization frequency, and thus the chirp is probably vocal.

To determine the origin once and for all, Clark and Feo observed for two springs the mating flights of male Anna's hummingbirds at a San Francisco Bay shoreline park called the Albany Bulb. With a borrowed high-speed camera taking 500 shots per second, Clark and Feo recorded male display dives performed for the benefit of a stuffed female hummingbird attached to a low bush or of a caged female. The video revealed a very brief flaring of the tail feathers at the bottom of the dive, just prior to the bird's ascent for another dive. The flaring coincided with the chirps.

To confirm, the students captured males and plucked or trimmed their tail feathers, knowing that birds can fly without tail feathers and that they typically grow back in five weeks. Those males missing the outer pair of five pairs of tail feathers, or those with the trailing (inner) vanes of the outer feathers trimmed, were unable to make dive sounds.

The researchers then took the tail feathers to a wind tunnel at Stanford University's Hopkins Marine Station in Pacific Grove, Calif., and demonstrated that a wind blowing at the same speed as a diving hummingbird made the tail feathers flutter at a frequency of 3.3-4.7 kilohertz, equivalent to the highest note on a piano, four octaves above middle C. High-speed video showed the sound was produced by the fluttering of the trailing edge of the outer tail feathers; outer tail feathers missing the inner vane produced no sound. Apparently, barbules linking the barbs of the feather vane make the vane stiff enough to vibrate like a reed in a wind instrument.

"Just blowing outward on the tail feather makes the same frequency as in the dive," said Feo, who plays clarinet in the Cal Band.

Interestingly, the tail chirp of the Anna's hummingbird is louder that its vocalizations, leading the researchers to note in their paper, "This suggests that switching to feather sonations has allowed (small birds) to escape the intrinsic constraints on vocal sound volume" imposed by their small song box, or syrinx.

Clark and Feo hope to test related hummingbirds to see whether their tail feathers also vibrate and are responsible for chirps made during display dives

Die letzten 5 Focus-News des innovations-reports im Überblick:

A research team led by physicists at the Technical University of Munich (TUM) has developed molecular nanoswitches that can be toggled between two structurally different states using an applied voltage. They can serve as the basis for a pioneering class of devices that could replace silicon-based components with organic molecules.

The development of new electronic technologies drives the incessant reduction of functional component sizes. In the context of an international collaborative...

At the LASYS 2018, from June 5th to 7th, the Laser Zentrum Hannover e.V. (LZH) will be showcasing processes for the laser material processing of tomorrow in hall 4 at stand 4E75. With blown bomb shells the LZH will present first results of a research project on civil security.

At this year's LASYS, the LZH will exhibit light-based processes such as cutting, welding, ablation and structuring as well as additive manufacturing for...

There are videos on the internet that can make one marvel at technology. For example, a smartphone is casually bent around the arm or a thin-film display is rolled in all directions and with almost every diameter. From the user's point of view, this looks fantastic. From a professional point of view, however, the question arises: Is that already possible?

At Display Week 2018, scientists from the Fraunhofer Institute for Applied Polymer Research IAP will be demonstrating today’s technological possibilities and...